KR20150123304A - Device and method for hydroponics - Google Patents

Abstract

A hydroponic cultivation apparatus for cultivating a plant body (100) having a main root (102) and an adjacent root (103), comprising: a plant support (2) for supporting a plant (100) A liquid nutrient solution concentration control sensor 5 for detecting the concentration of the nutrient liquid nutrient solution 10; and a liquid fertilizer concentration control unit 5 for detecting the concentration of the nutrient liquid nutrient solution 10, , And controls at least one of the concentration of the liquid sprayed by the main flow pipe section 3 and the concentration of the liquid nutrient solution 10 in which the side wall section 103 is immersed, with reference to the detected concentration.

Description

{DEVICE AND METHOD FOR HYDROPONICS}

The present invention relates to a hydroponic cultivation apparatus and a hydroponic cultivation method for cultivating a plant by hydroponics.

As a technology related to hydroponics, the following Patent Document 1 is known. The following patent document 1 discloses a nutrient solution cultivation system in which roots of a root crop are hypertrophied by using mist cultivation and deep flow cultivation, The cultivation method is described.

However, the above-mentioned nutrient solution cultivation system and nutrient solution cultivation method are likely to interfere with liquid fertilizer for mist cultivation and liquid fertilizer for paddy cultivation.

Japanese Laid-Open Patent Publication No. 1-100573

Therefore, the present invention has been proposed in order to solve the above-mentioned problems. An object of the present invention is to provide a hydroponic cultivation apparatus and a hydroponic cultivation method capable of suppressing interferences between liquid fertilizer for cultivation of mist and liquid fertilizer for cultivation of dipping liquid.

The hydroponic cultivation apparatus according to the first aspect of the present invention is a hydroponic cultivation apparatus for cultivating a plant having a main root and a secondary root, A main pipe water supply part for watering the main pipe by spraying a liquid in a mist state to the main pipe; an inner pipe water supply part for watering the side pipe by immersing the side pipe in a liquid; And a detection section for detecting the concentration of the liquid provided in the side pipe water supply section, wherein the concentration of the liquid sprayed by the main pipe water section and the side wall are immersed in the side pipe water supply section with reference to the concentration detected by the detection section The concentration of the liquid sprayed by the main flow pipe portion and the concentration of the liquid in which the side wall is immersed in the side pipe water supply portion The is characterized in that a control unit for so different.

The hydroponic cultivation apparatus according to the second aspect of the present invention is the hydroponic cultivation apparatus according to the first aspect, wherein the control unit controls the hydroponic cultivation apparatus so that the concentration of the liquid sprayed by the main- The concentration of the liquid sprayed by the main flow pipe portion and the concentration of the liquid in which the side root is immersed in the side pipe water supply portion are controlled so as to be lower than the concentration of the liquid.

The hydroponic cultivation apparatus according to the third aspect of the present invention is the hydroponic cultivation apparatus according to the first aspect, wherein at least a part of the main flow water main part and the at least one side water main part are physically separated and the liquid sprayed by the main water main part And a recovery and regeneration section that recovers the liquid sprayed by the main stream water section in the recovery layer and regenerates the liquid as sprayed by the main stream water section. do.

A hydroponic cultivation apparatus according to a fourth aspect of the present invention is the hydroponic cultivation apparatus according to the third aspect, wherein the control unit is configured to control the concentration of the liquid sprayed by the main- At least one of the concentration of the liquid sprayed by the main flow pipe portion and the concentration of the liquid in which the side wall is immersed in the side channel water supply portion is controlled so as to be higher than the concentration of the liquid.

The hydroponic cultivation apparatus according to the fifth aspect of the present invention is the hydroponic cultivation apparatus according to the above-mentioned fourth aspect, wherein the main stream water supply section includes a plurality of fluid distributors having different height directions in the plant, And spraying a liquid having a higher concentration as the height direction in the plant is higher.

A hydroponic cultivation method according to a sixth aspect of the present invention is a hydroponic cultivation method for cultivating a plant having a main muscle and an anterior root, wherein watering the main muscle is performed by spraying a liquid in a mist state, Wherein the concentration of the liquid sprayed to the main muscle is at least one of the concentration of the liquid sprayed to the main muscle and the concentration of the liquid to which the side muscle is immersed, with reference to the detected concentration, And a control unit.

1 is a perspective view showing a configuration example of a hydroponic cultivation apparatus shown as an embodiment of the present invention.
Fig. 2 is a perspective view showing another configuration example of the hydroponic cultivation apparatus shown as an embodiment of the present invention. Fig.

Hereinafter, embodiments of the present invention will be described with reference to the drawings.

The hydroponic cultivation apparatus shown as an embodiment of the present invention is configured as shown in Fig. 1, for example.

This hydroponic cultivation apparatus is an apparatus for cultivating a plant 100 in which a liquid is supplied to a main roots 102 and side roots 103 (a root portion) of the plant 100 without using soil, And the hydroponic cultivation in which the plant 100 is cultivated is carried out.

In particular, the hydroponic cultivation apparatus performs both the mist cultivation and the paddy cultivation. In the hydroponic cultivation apparatus shown as the present embodiment, the plant 100 may be of any kind as far as it has the main root portion 102 and the side wall portion 103. [ In this embodiment, the liquid is supplied to the plant 100, but the liquid includes a liquid (liquid fertilizer) in which nutrients are added to water or water.

The hydroponic cultivation apparatus shown in Fig. 1 cultivates the plant 100 having the main root portion 102 and the side root portion 103 by causing the stem and the leaf 101 to grow upwards. The hydroponic cultivation apparatus comprises a plant cultivation tank 1, a plant support 2, a main flow water supply unit 3, a liquid fertilizer concentration adjusting unit 4, a liquid fertilizer concentration control sensor 5, and a control unit 6 ).

The plant growing tank (1) has a box-like shape and stores the liquid nutrient solution (10) at the bottom. The nutrient solution (10) disposed at the bottom of the plant cultivation tank (1) corresponds to the side channel watering portion.

In the present embodiment, the liquid nutrient solution 10 is also mixed with the liquid fertilizer sprayed from the mist spray mouth 3a described later. The tip of the main root portion 102 and the fine roots grown from the side root portion 103 and the side root portion 103 are immersed in the nutrient solution liquid 10.

In the plant cultivation tank 1, the liquid nutrient solution 10 is supplied into the plant cultivation tank 1 by an operator, a pipe or a pump not shown. The plant cultivation tank 1 functions as an outside water supply section that performs irrigation to the inside wall section 103 by immersing the inside wall section 103 in a liquid (a liquid humor 10).

A plant support body (2) is arranged at the upper end of the plant cultivation tank (1). The plant support 2 can be constituted by a light-shielding sheet for shielding light irradiated to the plant 100 from above. The plant support body 2 is provided with a support portion 2a for supporting the plant body 100 in a state where the plant body 100 is inserted.

The support portion 2a applies pressure from the side portion of the plant body 100 to support the plant body 100. [ As the support portion 2a, a ring-shaped sponge can be used. As a result, the plant support 2 supports the plant 100 with a friction force between the sponge and the plant 100. If the plant 100 can be supported, a means such as hanging the ground portion of the plant 100 as a rope-like member may be used.

The main flow pipe section 3 sprays a liquid fertilizer (mist) in a mist state to the main root section 102 in the plant growing tank 1. Thereby, the main spigot part 3 performs the sprinkling on the main spigot part 102. The main flow pipe portion 3 has a mist spray opening 3a formed by a plurality of through holes formed in a rod-shaped pipe.

The main flow pipe section 3 is connected to a liquid supply pipe (not shown). The mist sprayer 3a injects the liquid supplied from the liquid supply pipe into a mist state (mist state). The mist spray mouth 3a is not limited to the one shown in Fig. 1, and may be a nozzle portion provided at any portion of the plant remodeling tank 1, or at an arbitrary height.

The concentration of the liquid sprayed from the main flow pipe section 3 may be a predetermined concentration or may be adjustable by the control section 6. [ Further, the spraying interval for spraying the mist and the spraying time at each spraying interval can be adjusted by the control unit 6 in the main flow pipe portion 3.

The liquid fertilizer application section 4 performs top application to the liquid nutrient solution 10 in the plant cultivation tank 1. The upper portion 4a of the liquid fertilizer application portion 4 protrudes from the plant support body 2 and the lower portion 4b of the liquid fertilizer application portion 4 extends to the plant support body 2. [ The liquid fertilizer application portion 4 is supplied with fertilizer from the upper portion 4a and supplies the fertilizer to the liquid nutrient solution 10 from the lower portion 4b.

Thus, the liquid fertilizer application section 4 adjusts the concentration of the liquid nutrient solution 10. The liquid fertilizer application section 4 performs, for example, fertilization in accordance with the control signal transmitted from the control section 6. The liquid fertilizer application section 4 may perform a predetermined amount of application at a predetermined time when the circulation amount of the liquid liquid nutrient solution 10 and the capacity of the liquid nutrient solution solution 10 are known.

The liquid fertilizer concentration control sensor 5 functions as a detector for detecting the concentration of a component corresponding to the fertilizer contained in the liquid nutrient solution 10. [ The concentration of the liquid nutrient solution 10 detected by the liquid fertilizer concentration control sensor 5 is read by the control unit 6. [

The control unit 6 receives sensor signals and outputs control signals to control the respective units of the plant cultivation apparatus. The control unit 6 refers to the concentration of the liquid nutrient solution 10 detected by the liquid fertilizer concentration control sensor 5 and controls the water or the fertilizer to be given to the plant 100. [

The control unit 6 determines whether the concentration of the liquid sprayed by the mist spray port 3a and the concentration of the liquid nutrient solution 10 in which the side wall unit 103 is immersed is at least one of . Thereby, the control section 6 makes the concentration of the liquid fertilizer sprayed by the main flow pipe section 3 and the concentration of the liquid nutrient solution 10 in which the inside wall section 103 is immersed.

The controller 6 controls the amount of the liquid solution 10 in which the inner wall portion 103 is immersed so that the concentration of the liquid nutrient solution 10 in which the inner wall portion 103 is immersed is lower than the concentration of the liquid sprayed by the mist spray opening 3a, The concentration of the nutrient solution 10 is controlled.

More specifically, low-concentration liquid fertilizer (EC: not more than 1.0 mS / cm) is sprayed from the mist spray mouth 3a to the main root portion 102. On the other hand, the control unit 6 uses the liquid fertilizer (EC: 1.3 mS / cm or more) at high concentration to immerse the leading end of the dominant portion 102 and the side wall portion 103 in the liquid nutrient solution 10.

And, EC represents electric conductivity. For this reason, the control unit 6 in the present embodiment controls the liquid fertilizer application unit 4 to cause the liquid fertilizer application unit 4 to add the liquid nutrient solution 10 to the liquid fertilizer application unit 4. The control unit 6 may control not only the liquid fertilizer application unit 4 but also the concentration of the liquid fertilizer sprayed from the main flow pipe unit 3.

As described above, the hydroponic cultivation apparatus (hydroponic cultivation method) is a hydroponic cultivation method in which the main root portion 102 and the lateral root portion 103 are formed in the main root portion 102 in order to grow and grow the main root portion 102 of the plant 100, And the liquid side fertilizer having different concentrations in the side wall portion 103 can be irrigated. Therefore, according to this hydroponic cultivation apparatus, it is possible to suppress the interference of the liquid fertilizer concentration in cultivating the plant 100 by using at least two kinds of liquid fertilizers, such as mist cultivation and pesticide cultivation, at the same time.

Thereby, the hydroponic cultivation apparatus can control the hypertrophy and hypertrophy of the root of the plant 100. [ Further, the hydroponic cultivation apparatus can make the roots of the plant 100 grow in the vertical direction. Particularly, in the plant 100 having a commercial value at the root, the value can be increased by controlling the hypertrophy and hypertrophy of the root. At the same time, by using the main-flow-pipe portion 3, it is possible to suppress drying and decay in the cultivation of the root.

According to this hydroponic cultivation apparatus, the concentration of the liquid fertilizer sprayed by the main flow pipe section 3 is made lower than the concentration of the liquid nutrient solution 10 in which the aptamer section 103 is immersed. Thus, according to the present hydroponic cultivation apparatus, in addition to the above-described effects, it is possible to make the roots of the plant 100 grow in the vertical direction.

Next, a hydroponic cultivation apparatus shown as another embodiment of the present invention will be described with reference to Fig. The same components as those in the above-described embodiment are denoted by the same reference numerals, and a detailed description thereof will be omitted.

The hydroponic cultivation apparatus in this embodiment has a separation unit 21, a mist amount liquid recovery pipe 22, and a liquid recovery liquid recovery pipe 23 in addition to the hydroponic cultivation apparatus described above.

The separation section 21 is provided above the liquid nutrient solution 10 in the plant growing tank 1. This separating section 21 is arranged so as to physically separate the upper main flow channel section 3 in the plant cultivation tank 1 and at least a part of the lower side flow channel section in the plant cultivation tank 1.

Thus, the separation section 21 forms the recovery layer 31 for recovering the liquid sprayed by the mist spray port 3a. The lower part of the recovery layer 31 becomes an immersion layer (immersion layer) 32 in which the liquid 9 liquid solution is present.

In the separating portion 21, a hole 21a is formed in a direction in which the plant 100 extends. Thereby, when the distal end of the proximal portion 102 and the proximal portion 103 are grown, they can be immersed in the nutrient solution 10.

The main flow pipe sections 3A and 3B are constructed by arranging piping at a plurality of places along the wall surface of the plant remodeling tank 1. [ Each of the main flow pipe sections 3A and 3B has a plurality of distribution ports arranged in the collection layer 31 such that the height direction of the plant 100 is different.

A part of the liquid sprayed from the mist spray mouth 3a is attached to the main root portion 102 or the side wall portion 103 of the plant 100 and the other part falls to the separation portion 21. [

The mist amount liquid recovery pipe 22 is connected to the recovery layer 31 in the plant remodeling tank 1 formed by the separation part 21. The mist liquid recovery pipe 22 recovers the liquid sprayed by the main flow pipe portion 3 in the recovery layer 31.

The recovered liquid is regenerated and becomes liquid fertilizer or liquid nutrient solution 10 to be sprayed. As a result, the mist liquid recovery pipe 22 functions as a recovery / regeneration section for regenerating the mist liquid 10 as liquid or mist liquid sprayed from the mist spray port 3a.

The liquid nutrient solution collection pipe 23 is connected to the lower part of the collection layer 31 in which the liquid nutrient solution 10 is stored in the plant growing tank 1. The liquid recovery liquid recovery pipe (23) recovers the liquid recovery liquid (10). The mist amount liquid recovery pipe 22 recovers the liquid nutrient solution 10 supplied to the plant cultivation tank 1 by, for example, piping and a pump (not shown).

In this hydroponic cultivation apparatus, the control unit 6 controls the concentration of the liquid sprayed from the mist spray port 3a to be lower than the concentration of the liquid nutrient solution 10 in which the main root portion 102 is immersed. At this time, the control unit 6 controls the concentration of the component corresponding to the fertilizer in the liquid nutrient solution 10. Thereby, the control unit 6 controls the enlargement and divergence of the roots of the plant body 100.

More specifically, high-concentration liquid fertilizer (EC: 1.3 mS / cm or more) is sprayed from the main flow pipe section 3A. A medium concentration liquid fertilizer (EC: 1.0 to 1.3 mS / cm) is sprayed from the main stream water supply section (3B). Thus, the high-concentration liquid fertilizer and the medium-concentration liquid fertilizer are sprayed to the fine roots grown from the main root portion 102 and the main root portion 102 by the main root portion 3A and the main root portion 3B.

Also, the liquid nutrient solution 10 uses a low-concentration liquid fertilizer (EC: 1.0 mS / cm or less). Thus, a low concentration of the liquid nutrient solution 10 is supplied to the distal end of the proximal portion 102. At this time, the control unit 6 controls the liquid fertilizer concentration unit 4 to adjust the concentration of the liquid nutrient solution 10 similarly to the above-described embodiment. The hydroponic culture apparatus may be capable of controlling either the concentration of the liquid nutrient solution 10 or the concentration of the liquid sprinkled from the main flow pipe section 3.

As described above, according to the plant remodeling tank 1 described above, the separating section 21 physically separates at least a part of the main flow channel section and the side channel flow channel section. Thus, the separating section 21 forms the recovery layer 31 for recovering the liquid fertilizer sprayed by the main flow pipe section 3. Thereby, the liquid fertilizer sprayed from the mist sprayer 3a can be separated and recovered, and the plant 100 can be cultivated by reusing and circulating liquid fertilizers of different concentrations.

According to the hydroponic cultivation apparatus, the concentration of the liquid sprayed by the mist spray nozzle 3a is made higher than the concentration of the liquid nutrient solution 10 in which the aptamer 103 is immersed. At this time, at least one of the concentration of the liquid sprayed by the main flow pipe portion 3 and the concentration of the liquid in which the side root is immersed by the side pipe water portion is controlled. Thus, according to the hydroponic cultivation apparatus, it is possible to grow the roots of the plant 100 in the horizontal direction.

Further, according to the hydroponic cultivation apparatus of the present invention, the recovery layer 31 is provided with a plurality of mist dispersing openings 3a having different height directions in the plant 100. Then, the hydroponic cultivation apparatus sprays a liquid fertilizer having a higher concentration in the plant 100 as the height direction is higher. Thus, according to the hydroponic cultivation apparatus, the roots of the plant 100 can also be grown in the horizontal direction.

The above-described embodiment is an example of the present invention. Therefore, it is needless to say that the present invention is not limited to the above-described embodiment, and that various modifications can be made in accordance with the design and the like, other than the present embodiment, provided that they do not depart from the technical idea of the present invention.

The entire contents of Japanese Patent Application No. 2013-092279 (filed on April 25, 2013) are hereby incorporated by reference.

According to the present invention, it is possible to suppress interference of liquid fertilizer for mist cultivation with liquid fertilizer for cultivation of dipping liquid.

One; Plant cultivation tank (a side watering section)
2; Plant support (support)
2a; Support
3; Main stream water division
3a; Mist Splash
4; Liquid fertilizer application unit (control unit)
5; Liquid fertilizer concentration control sensor (detector)
6; The control unit
10; Parenteral nutrient solution (side watering part)
21; Separating portion
22; Mist nutrient recovery pipe
23; Poultice liquid recovery tank
31; Recovery layer

Claims (6)

A hydroponic cultivation apparatus for cultivating a plant having a main-root and a secondary root,
A support for supporting the plant;
A main flow pipe section for spraying liquid on the main flow in a mist state to perform watering on the main flow;
An ancillary water supply part for immersing the ancestor in the liquid to perform watering on the ancestor; And
A detection unit for detecting the concentration of the liquid in the side pipe water supply unit;
And,
The control unit controls at least one of the concentration of the liquid sprayed by the main-stream water supply unit and the concentration of the liquid immersed in the side-by-side water supply unit by referring to the concentration detected by the detection unit, And a control section for causing the concentration of the liquid to be sprayed to be different from the concentration of the liquid in which the side root is immersed in the side channel water supply section,
Hydroponic cultivation equipment. The method according to claim 1,
Wherein the controller is configured to control the concentration of the liquid sprayed by the main flow pipe portion and the concentration of the liquid sprayed by the main pipe water portion so that the concentration of the liquid sprayed by the main flow pipe portion becomes lower than the concentration of the liquid, Wherein the control of at least one of the concentration of the liquid in which the side muscles are immersed is controlled. The method according to claim 1,
A separating part for physically separating at least a part of the main pipe water part and the side water pipe part and forming a recovery layer for recovering the liquid sprayed by the main pipe water part; And
And a recovery and regeneration section for recovering the liquid sprayed by the main flow pipe section in the recovery layer and regenerating the liquid as sprayed by the main flow pipe section. The method of claim 3,
Wherein the control unit controls the flow rate of the liquid sprayed by the main flow pipe portion and the flow rate of the liquid sprayed by the main flow pipe portion so that the concentration of the liquid sprayed by the main flow pipe portion becomes higher than the concentration of the liquid, Wherein the control of at least one of the concentration of the liquid in which the side muscles are immersed is controlled. 5. The method of claim 4,
Wherein the main flow pipe section is provided with a plurality of spray nozzles differing in height direction in the plant from the collection layer and spraying a liquid having a higher concentration in the height direction in the plant. A hydroponic cultivation method for cultivating a plant having a main root and an inside root,
Performing watering of the main stream by spraying a liquid in a fog state and dipping water in the side stream by immersing the ancillary in the liquid;
Detecting a concentration of the liquid that is flowing into the side wall; And
Controlling at least one of a concentration of the liquid sprayed on the main muscle and a concentration of the liquid on which the side muscle is immersed, with reference to the detected concentration;
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